CARSON CITY, Nev., Nov. 20, 2012 /PRNewswire/ -- Quantum Materials Corporation, Inc. (OTCQB: QTMM) proudly announces the USPTO patent grant of a fundamental disruptive technology for synthesis of Group II-VI inorganic tetrapod quantum dots. The patent, "Synthesis of Uniform Nanoparticle Shapes with High Selectivity" and invented by Professor Michael S. Wong's group at William Marsh Rice University, Houston, TX, for the first time gives precise control of both QD shape and dimension during synthesis and is adaptable to quantum dots production of industrial scale quantities. The new synthesis is a greener method using surfactants as would be found in laundry detergent instead of highly toxic chemicals used during industry standard small batch synthesis.

Quantum Materials Corporation, Inc.(QMC) has acquired the exclusive worldwide license for this patent and its wholly owned renewable energy subsidiary, Solterra Renewable Technologies, has the same rights specific to Quantum Dot Solar Applications. QMC last week announced a high quantum yield of 80% for a new class of tetrapod QD synthesized with this patented process.

According to a new market research report, "Quantum Dots (QD) Market – Global Forecast & Analysis (2012 – 2022)" published by MarketsandMarkets (http://www.marketsandmarkets.com), the total market for Quantum dots is expected to reach $7.48 Billion by 2022, at a CAGR of 55.2% from 2012 to 2022.

The Rice University QD synthesis remarkably produces same-sized tetrapods, in which more than 92+ percent are full tetrapods, with a similar high degree of process control over QD shape, size, uniformity, and selectivity. The synthesis is applicable to a wide range of mono and hybrid Group II-VI tetrapod QD with/without shell and can optimize specific characteristics by modifying process parameters.

Across the broader QD industry however, other companies have been striving to increase production, but none have predicted scaling quantum dot production remotely close to multiple kilograms per day.

Quantum Materials Corporation's development of breakthrough software-controlled continuous flow chemistry process allows scaling of tetrapod quantum dot production to 100Kg/Day. Increasing production will transform tetrapod quantum dots from a novelty to a commodity, available across industries and applications where prior limited availability and high prices restricted product development. For example, 100Kg daily QD production can support a QD Solar Cell Plant producing one Gigawatt/year of R2R flexible QD solar cells at an industry competitive .75 cents/Watt at the start.

Tetrapod QD offer inherent advantages over spherical QD including higher brightness, truer and more colors, the use of less active material (QDs) for any application, higher photostability and therefore longer lifetime; which together more than justify their product development. OLEDs, for example, share design architecture similarities and would not require entirely new research to adapt to TQD-LEDs. Spherical Quantum dots, at the low price of $2000/gm. are 30 times more expensive than gold today.

It simply has not been economically feasible to commercialize QD applications due to their high cost, which stems from the difficulty of small batch manufacture, the inability to produce uniform, same size QD from batch to batch, and to promise a reliable, timely supply. Over the last half dozen years university and corporate quantum dot research has increased dramatically and there are ready QD applications that may now be "business planned" for joint ventures or possible licensing with Quantum Materials Corporation and Solterra Renewable Technologies.

Stephen B. Squires, CEO and President of Quantum Materials Corporation, Inc. and Solterra Renewable Technologies, Inc., said, "With the granting of the US Patent, tetrapod quantum dots are well positioned to revolutionize several industries in offering dramatic performance at cost effective levels. While the technology has been under review, we have continued to execute our vision to establish global manufacturing centers and strategic partnerships for creating dramatic value in our companies." Squires continued, "We are excited to continue our business plan with the IP protection offered by the granted allowances. Adoption of quantum dots will result in new classes of products with advanced features, improved performance, energy efficiency, and lower cost."

QUANTUM MATERIALS CORPORATION has a steadfast vision that advanced technology is the solution to global issues related to cost, efficiency and increasing energy usage. Quantum dot semiconductors enable a new level of performance in a wide array of established consumer and industrial products, including low cost flexible solar cells, low power lighting and displays and biomedical research applications. Quantum Materials Corporation intends to invigorate these markets through cost reduction and moving laboratory discovery to commercialization with volume manufacturing methods to establish a growing line of innovative high performance products. (http://www.quantummaterials.us)

SOLTERRA RENEWABLE TECHNOLOGIES, INC. is singularly positioned to lead the development of truly sustainable and cost-effective solar technology by introducing a new dimension of cost reduction by replacing silicon wafer-based solar cells with high-production, low-cost, efficient Quantum Dot-based solar cells. Solterra is a wholly-owned subsidiary of Quantum Materials, Inc. (http://www.solterrasolarcells.com).

This press release contains forward-looking statements that involve risks and uncertainties concerning our business, products, and financial results. Actual results may differ materially from the results predicted. More information about potential risk factors that could affect our business, products, and financial results are included in our annual report and in reports subsequently filed by us with the Securities and Exchange Commission ("SEC"). All documents are available through the SEC's Electronic Data Gathering Analysis and Retrieval System (EDGAR) at http://www.sec.gov/ or from our website. We hereby disclaim any obligation to publicly update the information provided above, including forward-looking statements, to reflect subsequent events or circumstances.